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1 742 jeremybenn
// -*- C++ -*-
2
// Testing allocator for the C++ library testsuite.
3
//
4
// Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
5
// Free Software Foundation, Inc.
6
//
7
// This file is part of the GNU ISO C++ Library.  This library is free
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// software; you can redistribute it and/or modify it under the
9
// terms of the GNU General Public License as published by the
10
// Free Software Foundation; either version 3, or (at your option)
11
// any later version.
12
//
13
// This library is distributed in the hope that it will be useful,
14
// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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// GNU General Public License for more details.
17
//
18
// You should have received a copy of the GNU General Public License along
19
// with this library; see the file COPYING3.  If not see
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// <http://www.gnu.org/licenses/>.
21
//
22
 
23
// This file provides an test instrumentation allocator that can be
24
// used to verify allocation functionality of standard library
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// containers.  2002.11.25 smw
26
 
27
#ifndef _GLIBCXX_TESTSUITE_ALLOCATOR_H
28
#define _GLIBCXX_TESTSUITE_ALLOCATOR_H
29
 
30
#include <tr1/unordered_map>
31
#include <bits/move.h>
32
#include <testsuite_hooks.h>
33
 
34
namespace __gnu_test
35
{
36
  class tracker_allocator_counter
37
  {
38
  public:
39
    typedef std::size_t    size_type;
40
 
41
    static void*
42
    allocate(size_type blocksize)
43
    {
44
      void* p = ::operator new(blocksize);
45
      allocationCount_ += blocksize;
46
      return p;
47
    }
48
 
49
    static void
50
    construct() { constructCount_++; }
51
 
52
    static void
53
    destroy() { destructCount_++; }
54
 
55
    static void
56
    deallocate(void* p, size_type blocksize)
57
    {
58
      ::operator delete(p);
59
      deallocationCount_ += blocksize;
60
    }
61
 
62
    static size_type
63
    get_allocation_count() { return allocationCount_; }
64
 
65
    static size_type
66
    get_deallocation_count() { return deallocationCount_; }
67
 
68
    static int
69
    get_construct_count() { return constructCount_; }
70
 
71
    static int
72
    get_destruct_count() { return destructCount_; }
73
 
74
    static void
75
    reset()
76
    {
77
      allocationCount_ = 0;
78
      deallocationCount_ = 0;
79
      constructCount_ = 0;
80
      destructCount_ = 0;
81
    }
82
 
83
 private:
84
    static size_type  allocationCount_;
85
    static size_type  deallocationCount_;
86
    static int        constructCount_;
87
    static int        destructCount_;
88
  };
89
 
90
  // A simple basic allocator that just forwards to the
91
  // tracker_allocator_counter to fulfill memory requests.  This class
92
  // is templated on the target object type, but tracker isn't.
93
  template<class T>
94
  class tracker_allocator
95
  {
96
  private:
97
    typedef tracker_allocator_counter counter_type;
98
 
99
  public:
100
    typedef T              value_type;
101
    typedef T*             pointer;
102
    typedef const T*       const_pointer;
103
    typedef T&             reference;
104
    typedef const T&       const_reference;
105
    typedef std::size_t    size_type;
106
    typedef std::ptrdiff_t difference_type;
107
 
108
    template<class U> struct rebind { typedef tracker_allocator<U> other; };
109
 
110
    pointer
111
    address(reference value) const _GLIBCXX_NOEXCEPT
112
    { return std::__addressof(value); }
113
 
114
    const_pointer
115
    address(const_reference value) const _GLIBCXX_NOEXCEPT
116
    { return std::__addressof(value); }
117
 
118
    tracker_allocator() _GLIBCXX_USE_NOEXCEPT
119
    { }
120
 
121
    tracker_allocator(const tracker_allocator&) _GLIBCXX_USE_NOEXCEPT
122
    { }
123
 
124
    template<class U>
125
      tracker_allocator(const tracker_allocator<U>&) _GLIBCXX_USE_NOEXCEPT
126
      { }
127
 
128
    ~tracker_allocator() _GLIBCXX_USE_NOEXCEPT
129
    { }
130
 
131
    size_type
132
    max_size() const _GLIBCXX_USE_NOEXCEPT
133
    { return size_type(-1) / sizeof(T); }
134
 
135
    pointer
136
    allocate(size_type n, const void* = 0)
137
    { return static_cast<pointer>(counter_type::allocate(n * sizeof(T))); }
138
 
139
#ifdef __GXX_EXPERIMENTAL_CXX0X__
140
    template<typename U, typename... Args>
141
      void
142
      construct(U* p, Args&&... args)
143
      {
144
        ::new((void *)p) U(std::forward<Args>(args)...);
145
        counter_type::construct();
146
      }
147
 
148
    template<typename U>
149
      void
150
      destroy(U* p)
151
      {
152
        p->~U();
153
        counter_type::destroy();
154
      }
155
#else
156
    void
157
    construct(pointer p, const T& value)
158
    {
159
      ::new ((void *)p) T(value);
160
      counter_type::construct();
161
    }
162
 
163
    void
164
    destroy(pointer p)
165
    {
166
      p->~T();
167
      counter_type::destroy();
168
    }
169
#endif
170
 
171
    void
172
    deallocate(pointer p, size_type num)
173
    { counter_type::deallocate(p, num * sizeof(T)); }
174
  };
175
 
176
  template<class T1, class T2>
177
    bool
178
    operator==(const tracker_allocator<T1>&,
179
               const tracker_allocator<T2>&) throw()
180
    { return true; }
181
 
182
  template<class T1, class T2>
183
    bool
184
    operator!=(const tracker_allocator<T1>&,
185
               const tracker_allocator<T2>&) throw()
186
    { return false; }
187
 
188
  bool
189
  check_construct_destroy(const char* tag, int expected_c, int expected_d);
190
 
191
  template<typename Alloc>
192
    bool
193
    check_deallocate_null()
194
    {
195
      // Let's not core here...
196
      Alloc  a;
197
      a.deallocate(0, 1);
198
      a.deallocate(0, 10);
199
      return true;
200
    }
201
 
202
  template<typename Alloc>
203
    bool
204
    check_allocate_max_size()
205
    {
206
      Alloc a;
207
      try
208
        {
209
          a.allocate(a.max_size() + 1);
210
        }
211
      catch(std::bad_alloc&)
212
        {
213
          return true;
214
        }
215
      catch(...)
216
        {
217
          throw;
218
        }
219
      throw;
220
    }
221
 
222
 
223
  // A simple allocator which can be constructed endowed of a given
224
  // "personality" (an integer), queried in operator== to simulate the
225
  // behavior of realworld "unequal" allocators (i.e., not exploiting
226
  // the provision in 20.1.5/4, first bullet).  A global unordered_map,
227
  // filled at allocation time with (pointer, personality) pairs, is
228
  // then consulted to enforce the requirements in Table 32 about
229
  // deallocation vs allocator equality.  Note that this allocator is
230
  // swappable, not assignable, consistently with Option 3 of DR 431
231
  // (see N1599).
232
  struct uneq_allocator_base
233
  {
234
    typedef std::tr1::unordered_map<void*, int>   map_type;
235
 
236
    // Avoid static initialization troubles and/or bad interactions
237
    // with tests linking testsuite_allocator.o and playing globally
238
    // with operator new/delete.
239
    static map_type&
240
    get_map()
241
    {
242
      static map_type alloc_map;
243
      return alloc_map;
244
    }
245
  };
246
 
247
  template<typename Tp>
248
    class uneq_allocator
249
    : private uneq_allocator_base
250
    {
251
    public:
252
      typedef std::size_t                         size_type;
253
      typedef std::ptrdiff_t                      difference_type;
254
      typedef Tp*                                 pointer;
255
      typedef const Tp*                           const_pointer;
256
      typedef Tp&                                 reference;
257
      typedef const Tp&                           const_reference;
258
      typedef Tp                                  value_type;
259
 
260
#ifdef __GXX_EXPERIMENTAL_CXX0X__
261
      typedef std::true_type                      propagate_on_container_swap;
262
#endif
263
 
264
      template<typename Tp1>
265
        struct rebind
266
        { typedef uneq_allocator<Tp1> other; };
267
 
268
      uneq_allocator() _GLIBCXX_USE_NOEXCEPT
269
      : personality(0) { }
270
 
271
      uneq_allocator(int person) _GLIBCXX_USE_NOEXCEPT
272
      : personality(person) { }
273
 
274
      template<typename Tp1>
275
        uneq_allocator(const uneq_allocator<Tp1>& b) _GLIBCXX_USE_NOEXCEPT
276
        : personality(b.get_personality()) { }
277
 
278
      ~uneq_allocator() _GLIBCXX_USE_NOEXCEPT
279
      { }
280
 
281
      int get_personality() const { return personality; }
282
 
283
      pointer
284
      address(reference x) const _GLIBCXX_NOEXCEPT
285
      { return std::__addressof(x); }
286
 
287
      const_pointer
288
      address(const_reference x) const _GLIBCXX_NOEXCEPT
289
      { return std::__addressof(x); }
290
 
291
      pointer
292
      allocate(size_type n, const void* = 0)
293
      {
294
        if (__builtin_expect(n > this->max_size(), false))
295
          std::__throw_bad_alloc();
296
 
297
        pointer p = static_cast<Tp*>(::operator new(n * sizeof(Tp)));
298
        try
299
          {
300
            get_map().insert(map_type::value_type(reinterpret_cast<void*>(p),
301
                                                  personality));
302
          }
303
        catch(...)
304
          {
305
            ::operator delete(p);
306
            __throw_exception_again;
307
          }
308
        return p;
309
      }
310
 
311
      void
312
      deallocate(pointer p, size_type)
313
      {
314
        bool test __attribute__((unused)) = true;
315
 
316
        VERIFY( p );
317
 
318
        map_type::iterator it = get_map().find(reinterpret_cast<void*>(p));
319
        VERIFY( it != get_map().end() );
320
 
321
        // Enforce requirements in Table 32 about deallocation vs
322
        // allocator equality.
323
        VERIFY( it->second == personality );
324
 
325
        get_map().erase(it);
326
        ::operator delete(p);
327
      }
328
 
329
      size_type
330
      max_size() const _GLIBCXX_USE_NOEXCEPT
331
      { return size_type(-1) / sizeof(Tp); }
332
 
333
#ifdef __GXX_EXPERIMENTAL_CXX0X__
334
      template<typename U, typename... Args>
335
        void
336
        construct(U* p, Args&&... args)
337
        { ::new((void *)p) U(std::forward<Args>(args)...); }
338
 
339
      template<typename U>
340
        void
341
        destroy(U* p) { p->~U(); }
342
 
343
      // Not copy assignable...
344
      uneq_allocator&
345
      operator=(const uneq_allocator&) = delete;
346
#else
347
      void
348
      construct(pointer p, const Tp& val)
349
      { ::new((void *)p) Tp(val); }
350
 
351
      void
352
      destroy(pointer p) { p->~Tp(); }
353
 
354
    private:
355
      // Not assignable...
356
      uneq_allocator&
357
      operator=(const uneq_allocator&);
358
#endif
359
 
360
    private:
361
 
362
      // ... yet swappable!
363
      friend inline void
364
      swap(uneq_allocator& a, uneq_allocator& b)
365
      { std::swap(a.personality, b.personality); }
366
 
367
      template<typename Tp1>
368
        friend inline bool
369
        operator==(const uneq_allocator& a, const uneq_allocator<Tp1>& b)
370
        { return a.personality == b.personality; }
371
 
372
      template<typename Tp1>
373
        friend inline bool
374
        operator!=(const uneq_allocator& a, const uneq_allocator<Tp1>& b)
375
        { return !(a == b); }
376
 
377
      int personality;
378
    };
379
 
380
#ifdef __GXX_EXPERIMENTAL_CXX0X__
381
  // An uneq_allocator which can be used to test allocator propagation.
382
  template<typename Tp, bool Propagate>
383
    class propagating_allocator : public uneq_allocator<Tp>
384
    {
385
      typedef uneq_allocator<Tp> base_alloc;
386
      base_alloc& base() { return *this; }
387
      const base_alloc& base() const  { return *this; }
388
      void swap_base(base_alloc& b) { swap(b, this->base()); }
389
 
390
      typedef std::integral_constant<bool, Propagate> trait_type;
391
 
392
    public:
393
      // default allocator_traits::rebind_alloc would select
394
      // uneq_allocator::rebind so we must define rebind here
395
      template<typename Up>
396
        struct rebind { typedef propagating_allocator<Up, Propagate> other; };
397
 
398
      propagating_allocator(int i) noexcept
399
      : base_alloc(i)
400
      { }
401
 
402
      template<typename Up>
403
        propagating_allocator(const propagating_allocator<Up, Propagate>& a)
404
        noexcept
405
        : base_alloc(a)
406
        { }
407
 
408
      propagating_allocator() noexcept = default;
409
 
410
      propagating_allocator(const propagating_allocator&) noexcept = default;
411
 
412
      propagating_allocator&
413
      operator=(const propagating_allocator& a) noexcept
414
        {
415
          static_assert(Propagate, "assigning propagating_allocator<T, true>");
416
          propagating_allocator(a).swap_base(*this);
417
          return *this;
418
        }
419
 
420
      template<bool P2>
421
        propagating_allocator&
422
        operator=(const propagating_allocator<Tp, P2>& a) noexcept
423
        {
424
          static_assert(P2, "assigning propagating_allocator<T, true>");
425
          propagating_allocator(a).swap_base(*this);
426
          return *this;
427
        }
428
 
429
      // postcondition: a.get_personality() == 0
430
      propagating_allocator(propagating_allocator&& a) noexcept
431
      : base_alloc()
432
      { swap_base(a); }
433
 
434
      // postcondition: a.get_personality() == 0
435
      propagating_allocator&
436
      operator=(propagating_allocator&& a) noexcept
437
      {
438
        propagating_allocator(std::move(a)).swap_base(*this);
439
        return *this;
440
      }
441
 
442
      typedef trait_type propagate_on_container_copy_assignment;
443
      typedef trait_type propagate_on_container_move_assignment;
444
      typedef trait_type propagate_on_container_swap;
445
 
446
      propagating_allocator select_on_container_copy_construction() const
447
      { return Propagate ? *this : propagating_allocator(); }
448
    };
449
 
450
  // Class template supporting the minimal interface that satisfies the
451
  // Allocator requirements, from example in [allocator.requirements]
452
  template <class Tp>
453
    struct SimpleAllocator
454
    {
455
      typedef Tp value_type;
456
 
457
      SimpleAllocator() { }
458
 
459
      template <class T>
460
        SimpleAllocator(const SimpleAllocator<T>& other) { }
461
 
462
      Tp *allocate(std::size_t n)
463
      { return std::allocator<Tp>().allocate(n); }
464
 
465
      void deallocate(Tp *p, std::size_t n)
466
      { std::allocator<Tp>().deallocate(p, n); }
467
    };
468
 
469
  template <class T, class U>
470
    bool operator==(const SimpleAllocator<T>&, const SimpleAllocator<U>&)
471
    { return true; }
472
  template <class T, class U>
473
    bool operator!=(const SimpleAllocator<T>&, const SimpleAllocator<U>&)
474
    { return false; }
475
 
476
#endif
477
 
478
  template<typename Tp>
479
    struct ExplicitConsAlloc : std::allocator<Tp>
480
    {
481
      ExplicitConsAlloc() { }
482
 
483
      template<typename Up>
484
        explicit
485
        ExplicitConsAlloc(const ExplicitConsAlloc<Up>&) { }
486
 
487
      template<typename Up>
488
        struct rebind
489
        { typedef ExplicitConsAlloc<Up> other; };
490
    };
491
 
492
} // namespace __gnu_test
493
 
494
#endif // _GLIBCXX_TESTSUITE_ALLOCATOR_H

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